JP7176093B2 - Damper switchgear - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a damper opening/closing device, and more particularly to a damper opening/closing device suitable for use in opening and closing an air supply port, an exhaust port, etc., installed in a container or the like.

As a device for controlling the opening and closing of a damper, there is a damper opening and closing device described in Japanese Unexamined Patent Application Publication No. 2006-187524, for example.

This damper opening/closing device includes an opening/closing circuit section in which a charging circuit for accumulating electric charge in an electric storage means and a discharging circuit for discharging electric charges accumulated in the electric storage means are formed, and charging according to the connection state between the opening/closing circuit section and an external power supply. and a relay for switching to one of the circuit and the discharge circuit.

When the switching circuit section and the external power source are electrically connected to each other and are in an energized state, the relay switches to the charging circuit and accumulates electric charge in the electric storage means. In addition, when the switching circuit section and the external power supply are electrically cut off, the relay discharges the electric charge accumulated in the electric storage means by the discharge circuit and supplies it to the solenoid, thereby driving the plunger of the solenoid and the damper opening and closing mechanism. The part is interlocked with the plunger to bring the damper from the open state to the closed state.

However, the damper opening/closing device described in Japanese Patent Application Laid-Open No. 2006-187524 needs to accumulate electric charge in the electric storage means while the electric power is supplied from the external power supply. Therefore, a charging circuit for accumulating electric charges, a storage means for accumulating electric charges, and a discharging circuit for discharging electric charges from the accumulating means in the event of a power failure are required.

In addition, in the damper opening/closing device described above, if there is only one power storage means, the damper cannot be closed if the power storage means is damaged. However, the circuit system may become complicated.

Further, if the amount of electric charge stored in the electric storage means is small, the energy for closing the damper cannot be secured, and there is a possibility that the damper cannot be closed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems. To provide a damper opening/closing device capable of returning to an initial open state when power supply from a power source is restarted.

A damper opening/closing device according to an aspect of the present invention is a damper opening/closing device that is installed in an opening for air conditioning, and includes an opening/closing lid and a damper opening/closing device that holds the opening/closing lid while power is being supplied. a holding mechanism that opens the open/close lid and closes the opening by releasing the holding of the open/close lid when the power supply is stopped; and a return mechanism for returning the opening/closing cover to the state of being held by the holding mechanism when the open/close cover is in the state , wherein the return mechanism includes a first break contact and a second break contact, and the first break contact. and a motor that rotates based on the ON state of at least one of the second break contacts, and an arm that rotates from an initial position in a direction to open the open/close lid as the motor rotates. wherein the first break contact is turned off when the opening/closing cover is opened, the second break contact is turned off when the arm returns to the initial position, and the damper The opening/closing device further includes: a crank plate that rotates when driven by the motor to rotate the arm in a direction to open the open/close lid; and a cam plate that rotates together with the crank plate when driven by the motor; The plate has a cam surface that turns off the second break contact upon return of the arm to the initial position .

According to the damper opening/closing device according to the present invention, even if the power supply from the external power supply is cut off, the air supply port or the like can be closed without using a power storage means or the like, and the power supply from the external power supply is resumed. can return to the initial open state.

It is a top view which shows the damper opening/closing apparatus which concerns on this embodiment. FIG. 2 is a side view showing the damper opening/closing device according to the present embodiment as seen from the direction of arrow II in FIG. 1; FIG. 2 is a front view showing the damper opening/closing device according to the present embodiment as seen from the direction of arrow III in FIG. 1; It is a top view which shows a return mechanism and a holding mechanism as seen from the upper surface. 5A is a front view of the cam plate and crank plate assembly, and FIG. 5B is a cross-sectional view taken along line VB-VB in FIG. 5A. 4 is a wiring diagram showing part of a circuit system including a rotation control unit; FIG. It is a time chart which shows operation|movement of the damper opening-and-closing apparatus which concerns on this embodiment.

An embodiment of a damper opening/closing device according to the present invention will be described below with reference to FIGS. 1 to 7. FIG.

As shown in FIGS. 1 to 3, the damper opening/closing device 10 according to the present embodiment is installed in an opening 12 such as an air supply port installed on the floor of a container or the like.

The damper opening/closing device 10 includes a base 16 having a frame portion 14 installed on the floor so as to surround the opening 12, and an opening/closing lid that is rotatably installed with respect to the base 16 and opens and closes the opening 12. 18 , a holding mechanism 20 fixed to the base 16 , and a return mechanism 24 .

The base 16 integrally has a pedestal 26 installed adjacent to one side of the frame 14 in addition to the frame 14 described above.

The opening/closing lid 18 is made of, for example, a metal plate and is formed in a size to close the opening 12 . In the example of FIG. 1, since the shape of the opening 12 is rectangular when viewed from above, it is rectangular like the opening 12 . Of course, the shape of the opening/closing lid 18 may be circular, elliptical, track-shaped, polygonal, etc., depending on the shape of the opening 12 . The track shape is a shape composed of two opposing semicircular portions and two parallel straight portions connecting the semicircular portions. In addition, a metal fitting 27 to be locked and fixed by the holding mechanism 20 is provided on the top of the opening/closing lid 18 .

The holding mechanism 20 holds the opening/closing lid 18 to open the opening 12 while power is being supplied from an external power supply or the like, and releases the holding of the opening/closing lid 18 when the power supply is stopped.

Specifically, as shown in FIGS. 2 and 4 , the holding mechanism 20 has a motor base 28 and an electromagnetic chuck 30 fixed to the tip portion of the motor base 28 . The motor base 28 has two metal plates (a first metal plate 32A and a second metal plate 32B: see FIG. 4) installed on the base 16 in an L shape when viewed from above. Both the first metal plate 32A and the second metal plate 32B are installed so that the plate surfaces thereof extend in the vertical direction, that is, the plate surfaces face the horizontal direction. The first metal plate 32A is installed on the base 16, and the second metal plate 32B is installed from the base 16 to above the opening/closing lid 18. As shown in FIG. However, the second metal plate 32B is not fixed to the opening/closing lid 18. As shown in FIG. Further, the second metal plate 32B has a part of the lower part cut off so as not to hinder the opening operation of the opening/closing lid 18 .

A mounting bracket 34 having a U-shaped cross section for mounting the electromagnetic chuck 30 is attached to the plate surface of the second metal plate 32B, and the electromagnetic chuck 30 is attached to the tip of the mounting bracket 34. As shown in FIG. A holding metal fitting 36 is rotatably attached to the mounting metal fitting 34 by a support shaft 38 . The holding metal fitting 36 has an attracted portion 36a facing the attracting surface of the electromagnetic chuck 30, and an engaging portion 36b having, for example, an L-shaped cross section integrally provided at the tip of the attracted portion 36a.

2, in a state in which the mounting metal fitting 34 is held (adsorbed) by the electromagnetic chuck 30, the metal fitting 27 to be locked provided on the top of the opening/closing lid 18 is attached to the locking portion 36b. is locked, the opening/closing lid 18 is held in an open state. When the power supply is stopped and the holding (adsorption) by the electromagnetic chuck 30 is released, the holding metal fitting 36 rotates around the support shaft 38 due to the weight of the open/close lid 18 , so that the metal fitting to be locked of the open/close lid 18 is rotated. 27 is removed from the holding metal fitting 36 . As a result, the opening/closing lid 18 rotates (drops) about the hinge 22 as a rotational fulcrum, closing the opening 12 (see the solid line in FIG. 2).

The hinge 22 is attached between the portion of the frame portion 14 of the base 16 where the pedestal 26 is provided and the opening/closing lid 18 . As a result, first, the opening/closing lid 18 is held by the holding mechanism 20 in a state of being directed obliquely upward with the hinge 22 serving as a rotation fulcrum. When the holding by the holding mechanism 20 is released, the open/close lid 18 falls downward due to its own weight, and at this time rotates downward around the hinge 22 to close the opening 12 . Note that the example of FIG. 1 shows a case where hinges 22 are attached to both the left and right sides of the long side of the open/close lid 18 adjacent to the portion of the frame 14 where the pedestal 26 is provided. Of course, the mounting positions and the number of hinges 22 may be appropriately set according to the shape of the opening/closing lid 18 and the like.

As shown in FIG. 2 , when the power supply is resumed, the return mechanism 24 lifts the opening/closing lid 18 to return the opening/closing lid 18 to the state held by the holding mechanism 20 . In addition, even if the open/close lid 18 is closed due to the electromagnetic chuck 30 losing its hold while power is being supplied, the open/close lid 18 is lifted to return to the state held by the holding mechanism 20 . Let

Specifically, as shown in FIGS. 1 and 3, the return mechanism 24 controls the rotation of the motor 40, the arm 42 that rotates the opening/closing lid 18 upward as the motor 40 rotates, and the rotation of the motor 40. and a transmission mechanism 46 (see FIGS. 2, 5A, and 5B) for transmitting the rotational force of the motor 40 to the arm 42 .

Further, as shown in FIG. 1 , the return mechanism 24 has a handle 48 provided on the upper surface of the opening/closing lid 18 and a hinge pin 50 provided on the handle 48 . The handle 48 is composed of, for example, two L-shaped metal plates 52a and 52b (see FIG. 3) facing each other extending from the side on which the hinge 22 is attached to the opposite side. Hinge pin 50 is connected between two metal plates 52a and 52b.

The motor 40 is installed on the pedestal 26 with the output shaft 54 (rotating shaft) of the motor 40 passing through the second metal plate 32B of the motor base 28 (see FIG. 5B).

The transmission mechanism 46 has a cam plate 56 attached to the output shaft 54 of the motor 40 penetrating the second metal plate 32B, as shown in FIGS. 5A and 5B. The cam plate 56 has a cam surface 56a formed by bulging out a portion of the disk-shaped peripheral surface.

As shown in FIG. 6, the rotation control unit 44 includes a damper internal circuit 64 connected between the power supply line 60 and the ground line 62, and first damper internal circuits 64 connected between the power supply line 60 and the damper internal circuit 64, respectively. It has a switch 66A and a second switch 66B. The first switch 66A has, for example, a normally open type make contact 68a (a contact), and is turned on when power supply from an external power source or the like is started. As a result, power is supplied to the damper internal circuit 64 through the power supply line 60 . On the other hand, the second switch 66B has, for example, a normally closed break contact 68b (b contact), and normally power from an external power supply or the like is supplied to the damper internal circuit 64 through the power supply line 60. FIG.

The damper internal circuit 64 has, for example, four contacts (first contact 70a to fourth contact 70d). The first switch 66A is connected between the power line 60 and the first contact 70a, and the second switch 66B is connected between the power line 60 and the second contact 70b. The third contact 70 c and the fourth contact 70 d are connected to the ground line 62 .

The damper internal circuit 64 includes the motor 40 connected between the first contact 70a and the third contact 70c, and the first limit switch 74A and the third limit switch 74A connected in parallel between the first contact 70a and the motor 40. 2 limit switch 74B and the electromagnetic chuck 30 connected between the second contact 70b and the fourth contact 70d.

The first limit switch 74A has, for example, a normally closed first break contact 78a, and the second limit switch 74B has, for example, a normally closed second break contact 78b. Therefore, as can be seen from FIG. 6, the motor 40 is rotationally driven when at least one of the first break contact 78a and the second break contact 78b is in the ON state.

Also, as shown in FIG. 2, the first limit switch 74A is attached between the mounting bracket 34 and the opening/closing lid 18, for example. Preferably, the first limit switch 74A is attached at a position where the first break contact 78a of the first limit switch 74A is turned off by the opening/closing lid 18 when the opening/closing lid 18 is moved to the open state. Of course, it may be installed at a position where the first break contact 78a of the first limit switch 74A is turned off when the opening/closing cover 18 is fully opened.

The second limit switch 74B is mounted above the cam plate 56 on the surface of the second metal plate 32B of the motor base 28 facing the arm 42, for example. Preferably, the second limit switch 74B is mounted at a position where the cam surface 56a of the cam plate 56 turns off the second break contact 78b. In the initial state, that is, when the arm 42 is at the initial position, the pin 80a of the crank plate 80 is at the upper limit position and the cam surface 56a of the cam plate 56 is at the upper limit position of the second limit switch 74B, as shown in FIG. Since the second break contact 78b is pressed, the second break contact 78b is in the OFF state. It should be noted that the upper limit position refers to a position that cannot be moved upward any more.

Therefore, when the cam plate 56 rotates due to the rotation of the motor 40, the second break contact 78b of the second limit switch 74B is turned off while the cam surface 56a presses the second break contact 78b. When the cam surface 56a moves away from the second break contact 78b, the second break contact 78b is turned on.

The transmission mechanism 46 has a crank plate 80 outside the cam plate 56 and attached to the output shaft 54 of the motor 40, as shown in FIGS. 2, 5A and 5B. The crank plate 80 is provided with a pin 80a protruding outward at an eccentric position on the surface opposite to the cam plate 56 side.

As shown in FIGS. 1 and 2, the arm 42 is composed of a long metal fitting with an L-shaped cross section extending from the base 16 side to the opening/closing lid 18 side. As shown in FIG. 2, the arm 42 has a rotary shaft 82 provided in the central portion, and an elongated hole 84 provided on the base 16 side and through which the pin 80a of the crank plate 80 is inserted. The long hole 84 is formed such that its long axis extends along the longitudinal direction of the arm 42 .

When the crank plate 80 rotates in one direction (counterclockwise when viewed from the output shaft 54 of the motor 40) due to the rotation of the motor 40, the pin 80a of the crank plate 80 rotates along the long hole 84 of the arm 42. slide. As a result, the arm 42 rotates counterclockwise about the rotating shaft 82, and the hinge pin 50 of the handle 48 is hooked by the front end portion 42a (see FIG. 1) of the opening/closing lid 18 to lift the arm 42 upward. As a result, the opening/closing lid 18 rotates upward about the hinge 22 and is held open by the electromagnetic chuck 30 .

Here, the operation of the damper opening/closing device 10 according to this embodiment will be described with reference to the time chart of FIG. 7 as well.

First, at time t1, when power is supplied to the power supply line 60 from an external power source or the like, the first switch 66A is turned ON, power is supplied to the motor 40, and the electromagnetic chuck is operated via the second switch 66B. 30 is powered. For example, as shown in FIG. 2, when power is supplied to the motor 40 (see FIG. 3), the cam plate 56 and the crank plate 80 rotate counterclockwise, and accordingly the cam surface 56a of the cam plate 56 rotates to the second position. It is separated from the second break contact 78b of the limit switch 74B, and the second limit switch 74B is turned ON (time t2). Further, the arm 42 also rotates counterclockwise about the rotating shaft 82 to gradually lift the opening/closing lid 18 (see the chain double-dashed line in FIG. 2). As a result, the opening/closing lid 18 rotates upward with the hinge 22 as a rotation fulcrum.

Then, as the cam plate 56 and the crank plate 80 rotate, the pin 80a of the crank plate 80 reaches, for example, the lower limit position or its vicinity. The opening/closing lid 18 is held by an electromagnetic chuck 30 . It should be noted that the lower limit position refers to a position that cannot be moved downward any further. Also, at this time, the first limit switch 74A is turned off because the first break contact 78a is pressed by the open/close lid 18 . At this stage, power is supplied to the motor 40 via the second limit switch 74B, so the cam plate 56 and the crank plate 80 continue to rotate counterclockwise.

After that, as the cam plate 56 and the crank plate 80 rotate, the cam surface 56a of the cam plate 56 presses the second break contact 78b of the second limit switch 74B, thereby turning off the second break contact 78b. (Time t4), power supply to the motor 40 is stopped. At this time, the cam plate 56 and the crank plate 80 stop rotating when the pin 80a reaches or near the upper limit position, so that the arm 42 returns to its initial state (see the solid line in FIG. 2).

In the unlikely event that the electromagnetic chuck 30 is released from the opening/closing lid 18 and the opening/closing lid 18 is closed by its own weight, the first break contact 78a of the first limit switch 74A is turned on (time t5). Rotational driving of the motor 40 is started (restarted) again, the above-described operations from time t2 to t4 are repeated, and the opening/closing lid 18 is returned to the open state. This return operation is based on the fact that the opening drive of the opening/closing lid 18 is given priority since it is basically necessary to keep the opening/closing lid 18 open (air supply state).

On the other hand, in an emergency (when combustion gas is detected, etc.), power supply to the power supply line 60 is stopped so that the opening/closing lid 18 is closed. That is, for example, at time t6, when combustion gas is detected, the power supply from the external power supply or the like to the power supply line 60 is stopped. As a result, power supply to the electromagnetic chuck 30 and the motor 40 is stopped, and the opening/closing lid 18 is closed.

As described above, the damper opening/closing device 10 according to the present embodiment holds the opening/closing lid 18 in a state in which it is directed obliquely upward with the hinge 22 as a rotation fulcrum by the holding mechanism 20, thereby opening the opening 12. can do. Even if the open/close lid 18 is closed by the electromagnetic chuck 30, the return mechanism 24 drives the open/close lid 18 to return the open/close lid 18 to the state held by the holding mechanism 20.例文帳に追加can be done. In particular, when the opening/closing cover 18 is held open by the holding mechanism 20, the arm 42 is returned to the initial position, so that the return mechanism 24 can smoothly return the opening/closing cover 18 to the open state. .

On the other hand, when the power supply to the holding mechanism 20 is stopped in an emergency or the like, the holding by the holding mechanism 20 is released, and the opening/closing lid 18 falls downward due to its own weight. At this time, the hinge 22 is rotated downward to close the opening 12 . That is, the opening 12 can be closed. Even if the power supply from the external power supply is cut off, the opening 12 can be closed without using an electric means such as a power storage means, and power consumption (standby power, etc.) can be reduced.

When the power supply from the external power supply is restarted, the opening 12 is opened by holding the open/close lid 18 in a state of being directed obliquely upward with the hinge 22 as a rotation fulcrum by the holding mechanism 20 again. can be done.

This embodiment also has a crank plate 80 that rotates when driven by the motor 40 to rotate the arm 42 in the direction in which the opening/closing lid 18 is opened, and a cam plate 56 that rotates together with the crank plate 80 when driven by the motor 40 . The cam plate 56 has a cam surface 56a that turns off the second break contact 78b when the arm 42 returns to the initial position.

By rotating both the crank plate 80 and the cam plate 56 by the motor 40, the crank plate 80 rotates the arm 42 in the direction to open the open/close lid 18, and the return of the arm 42 to the initial position causes the cam to rotate. The operation of turning off the second break contact 78b by the cam surface 56a of the plate 56 can be performed by one motor 40, so that the structure can be simplified and the number of parts can be effectively reduced.

The above embodiments are summarized as follows.
[1] The damper opening/closing device 10 is a damper opening/closing device installed in an opening 12 for air conditioning. A holding mechanism 20 that opens and closes the opening 12 by releasing the holding of the opening/closing lid 18 when the power supply is stopped, and the opening/closing lid 18 is in the closed state while the power supply is being performed. and a return mechanism 24 for returning the open/close lid 18 to the state of being held by the holding mechanism 20 when the opening and closing lid 18 is held by the holding mechanism 20 .

As a result, first, the holding mechanism 20 holds the opening/closing lid 18 to open the opening 12 while power is being supplied. When the power supply is stopped, the holding mechanism 20 releases the holding of the opening/closing lid 18 to close the opening 12 . In this way, even if the power supply from the external power source is cut off, the opening 12 can be closed without using an electric means such as a power storage means, and power consumption (standby power, etc.) can be reduced. Even if the opening/closing lid 18 is closed while the holding mechanism 20 is disengaged while power is being supplied, the return mechanism 24 returns the opening/closing lid 18 to the holding mechanism 20 . can be returned to the state of holding by

[2] In the present embodiment, the holding mechanism 20 may be an electromagnetic chuck 30 that electromagnetically holds the opening/closing lid 18 . The opening/closing lid 18 can be kept open by power supply.

[3] In the present embodiment, the movement of the opening/closing lid 18 when the holding mechanism 20 releases the opening/closing lid 18 depends on the weight of the opening/closing lid 18 itself. As a result, even if the power supply from the external power supply is cut off, the opening/closing lid 18 can close the air supply port and the like without using the power storage means and the like.

[4] In the present embodiment, the return mechanism 24 includes at least one of the first break contact 7 8 a and the second break contact 7 8 b and the first break contact 7 8 a and the second break contact 7 8 b. and an arm 42 that rotates in a direction to open the opening/closing cover 18 from the initial position as the motor 40 rotates. is turned off when the opening/closing cover 18 is opened, and the second break contact 7 8 b is turned off when the arm 42 returns to the initial position. Thus, when the opening/closing cover 18 is held in the open state by the holding mechanism 20, the arm 42 is returned to the initial position. can.

[5] In the present embodiment, the open state of the open/close lid 18 is the state in which the open/close lid 18 is held by the holding mechanism 20, and the second break contact 7 8 b is in the OFF state of the first break contact 7 8 a. After that, it is turned off based on the return of the arm 42 to the initial position.

[6] This embodiment has a crank plate 80 that rotates when driven by the motor 40 and rotates the arm 42 in the direction in which the opening/closing lid 18 is opened, and a cam plate 56 that rotates together with the crank plate 80 when driven by the motor 40. The cam plate 56 has a cam surface 56a that turns off the second break contact 78b when the arm 42 returns to the initial position.

Motor 40 rotates crank plate 80 and cam plate 56 together. As a result, the crank plate 80 rotates the arm 42 in the direction in which the open/close lid 18 is opened, and the return of the arm 42 to the initial position causes the cam surface 56a of the cam plate 56 to turn off the second break contact 78b . A single motor can be used to perform the operation of setting the state, and the simplification of the structure and the reduction in the number of parts can be effectively achieved.

It should be noted that the damper opening/closing device according to the present invention is not limited to the above-described embodiment, and can of course adopt various configurations without departing from the gist of the present invention.

Claims (4)

A damper opening/closing device (10) installed in an opening (12) for air conditioning,
an opening/closing lid (18);
The open/close lid (18) is held to open the opening (12) while the power supply is being performed, and the holding of the open/close lid (18) is released when the power supply is stopped. a holding mechanism (20) for closing the opening (12);
When the open/close cover (18) is in the closed state while the electric power is supplied, a return mechanism ( 24) and
The return mechanism (24) is
a first break contact (78a) and a second break contact (78b);
a motor (40) rotationally driven based on the ON state of at least one of the first break contact (78a) and the second break contact (78b);
an arm (42) that rotates in a direction to open the open/close lid (18) from an initial position as the motor (40) rotates,
The first break contact (78a) is turned off based on the open state of the opening/closing cover (18),
The second break contact (78b) is turned off based on the return of the arm (42) to the initial position,
The damper opening/closing device (10)
a crank plate (80) that rotates when driven by the motor (40) and rotates the arm (42) in a direction to open the opening/closing lid (18);
a cam plate (56) rotating together with the crank plate (80) driven by the motor (40);
The cam plate (56) includes a damper opening/closing device ( 10). In the damper opening/closing device (10) according to claim 1,
A damper opening/closing device (10), wherein the holding mechanism (20) has an electromagnetic chuck (30) that electromagnetically holds the opening/closing lid (18). In the damper opening/closing device (10) according to claim 1 or 2,
A damper opening/closing device (10), wherein the movement of the opening/closing lid (18) when the holding mechanism (20) releases the opening/closing lid (18) is due to the weight of the opening/closing lid (18). . In the damper opening/closing device (10) according to any one of claims 1 to 3 ,
The open state of the opening/closing lid (18) is a state in which the opening/closing lid (18) is held by the holding mechanism (20),
The second break contact ( 78b) is turned off when the arm (42) returns to the initial position after the first break contact ( 78a) is turned off. , a damper switchgear (10).

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